Nov 1 2018
From The Space Library
MEDIA ADVISORY M18-163 NASA Astronaut Anne McClain Available for Interviews Before First Spaceflight
NASA astronaut Anne McClain will be available at 9:30 a.m. EST Friday, Nov. 9, for live satellite interviews from Star City, Russia, before she launches to the International Space Station on her first spaceflight.
The interviews will air live on NASA Television and the agency’s website following video highlights of McClain’s training that begin at 9 a.m.
McClain and crewmates David Saint-Jacques of the Canadian Space Agency and Oleg Kononenkoof the Russian space agency Roscosmos are targeted to launch from Baikonur, Kazakhstan, at approximately 6:31 a.m. (5:31 p.m. local time in Kazakhstan) Dec. 3.
To interview McClain, media must contact Mary Beth Boddeker at 281-483-2167 or mary.b.boddeker@nasa.gov no later than 5 p.m. Wednesday, Nov. 7. Media participating in the interviews must tune to the NASA Television’s Media Channel (NTV-3). Satellite tuning information is available at: http://go.nasa.gov/1pOWUhR
McClain and her crewmates currently are at the Gagarin Cosmonaut Training Center in Star City preparing for their mission. After arriving at the station, they’ll join NASA astronaut Serena Auñón-Chancellor, Expedition 57 Commander Alexander Gerstof ESA (European Space Agency), and Sergey Prokopyevof Roscosmos, bringing the station’s crew to six. There will be a short handover period before Auñón-Chancellor, Gerst and Prokopyev depart the station on Dec. 20. McClain, Saint-Jacquesand Kononenkoare scheduled to return to Earth in June.
During their six-month mission, the crew will facilitate about 250 research investigations and technology demonstrations not possible on Earth to advance scientific knowledge of Earth, space, physical and biological sciences.
Among them, McClain is expected to take part in one of the first Tissues on Chips investigations, which will launch to the station aboard a SpaceX Dragon cargo spacecraft. This investigation will enable researchers to explore the effects of reduced gravity on organs at the cellular and tissue levels. In this research, the complex biological functions of specific organs are replicated using an advanced combination of miniature organ tissue models on transparent microchips. Such research on the space station yields benefits on Earth and will enable future long-duration human exploration into deep space, including the Moon and Mars.
The crew also is scheduled to be on station when NASA’s Commercial Crew partners conduct their first uncrewed test flights, bringing NASA a significant step closer to returning human spaceflight launches to U.S. soil.
A member of NASA’s 2013 astronaut class, McClain is a native of Spokane, Washington, and a lieutenant colonel in the U.S. Army. As a senior army aviator, she has logged more than 2,000 hours in 20 different rotary and fixed-wing aircraft.
McClain has a bachelor’s degree in mechanical and aeronautical engineering from the U.S. Military Academy at West Point and a master’s degree in aerospace engineering from the University of Bath, in England, as well as a master’s degree in international relations from the University of Bristol, in England.
RELEASE 18-087 NASA’s Dawn Mission to Asteroid Belt Comes to End
NASA’s Dawn spacecraft has gone silent, ending a historic mission that studied time capsules from the solar system’s earliest chapter.
Dawn missed scheduled communications sessions with NASA's Deep Space Network on Wednesday, Oct. 31, and Thursday, Nov. 1. After the flight team eliminated other possible causes for the missed communications, mission managers concluded that the spacecraft finally ran out of hydrazine, the fuel that enables the spacecraft to control its pointing. Dawn can no longer keep its antennae trained on Earth to communicate with mission control or turn its solar panels to the Sun to recharge.
The Dawn spacecraft launched 11 years ago to visit the two largest objects in the main asteroid belt. Currently, it’s in orbit around the dwarf planet Ceres, where it will remain for decades.
“Today, we celebrate the end of our Dawn mission – its incredible technical achievements, the vital science it gave us, and the entire team who enabled the spacecraft to make these discoveries,” said Thomas Zurbuchen, associate administrator of NASA’s Science Mission Directorate in Washington. “The astounding images and data that Dawn collected from Vesta and Ceres are critical to understanding the history and evolution of our solar system.”
Dawn launched in 2007 on a journey that put about 4.3 billion miles (6.9 billion kilometers) on its odometer. Propelled by ion engines, the spacecraft achieved many firsts along the way. In 2011, when Dawn arrived at Vesta, the second largest world in the main asteroid belt, the spacecraft became the first to orbit a body in the region between Mars and Jupiter. In 2015, when Dawn went into orbit around Ceres, a dwarf planet that is also the largest world in the asteroid belt, the mission became the first to visit a dwarf planet and go into orbit around two destinations beyond Earth.
"The fact that my car's license plate frame proclaims, 'My other vehicle is in the main asteroid belt,' shows how much pride I take in Dawn," said Mission Director and Chief Engineer Marc Rayman at NASA's Jet Propulsion Laboratory (JPL). "The demands we put on Dawn were tremendous, but it met the challenge every time. It's hard to say goodbye to this amazing spaceship, but it’s time."
The data Dawn beamed back to Earth from its four science experiments enabled scientists to compare two planet-like worlds that evolved very differently. Among its accomplishments, Dawn showed how important location was to the way objects in the early solar system formed and evolved. Dawn also reinforced the idea that dwarf planets could have hosted oceans over a significant part of their history – and potentially still do.
“In many ways, Dawn’s legacy is just beginning,” said Principal Investigator Carol Raymond at JPL. “Dawn’s data sets will be deeply mined by scientists working on how planets grow and differentiate, and when and where life could have formed in our solar system. Ceres and Vesta are important to the study of distant planetary systems, too, as they provide a glimpse of the conditions that may exist around young stars.”
Because Ceres has conditions of interest to scientists who study chemistry that leads to the development of life, NASA follows strict planetary protection protocols for the disposal of the Dawn spacecraft. Dawn will remain in orbit for at least 20 years, and engineers have more than 99 percent confidence the orbit will last for at least 50 years.
So, while the mission plan doesn't provide the closure of a final, fiery plunge – the way NASA’s Cassini spacecraft ended last year, for example – at least this is certain: Dawn spent every last drop of hydrazine making science observations of Ceres and radioing them back so we could learn more about the solar system we call home.
The Dawn mission is managed by JPL for NASA's Science Mission Directorate in Washington. Dawn is a project of the directorate's Discovery Program, managed by NASA's Marshall Space Flight Center in Huntsville, Alabama. JPL is responsible for overall Dawn mission science. Northrop Grumman in Dulles, Virginia, designed and built the spacecraft. The German Aerospace Center, Max Planck Institute for Solar System Research, Italian Space Agency and Italian National Astrophysical Institute are international partners on the mission team.